Sensor Device and Helmet Incorporating Same
An impact sensor comprises a support 26, a first inertial weight 38, and a first retainer 32 holding the weight 38 against movement relative to the support 26, the retainer 32 being movable relative to the support 26 to permit release the weight 38 for movement relative to the support 26 in the event that the support 26 is subject to an acceleration/deceleration of magnitude greater than a predetermined level.
This invention relates to a sensor device and to a helmet incorporating such a device.
Safety helmets, for example as worn when horse riding, cycling, skiing, riding a motorcycle, or the like, are in common usage and typically comprise an outer skin and an inner, compressible layer or series of compressible components. In use, if the wearer of the helmet is involved in an incident which would otherwise result in an impact to the wearers head, at least part of the impact force is absorbed by compression of at least part of the compressible layer or one or more of the compressible components. The material of the compressible layer or compressible components is usually of non-resilient form, with the result that the compression thereof is permanent. The permanent compression means that the helmet will be less able to absorb a future impact, and thus may no longer be suitable for use.
Often the outer skin is not significantly damaged by such incidents, and it is not easy to tell simply by visual inspection whether or not a helmet has been involved in an incident sufficient to reduce the shock absorbing capability thereof. There is therefore a risk of individuals continuing to use helmets which are no longer capable of providing the required degree of protection. Where a helmet is only ever used by a single individual, then the individual has some idea of the number of impacts the helmet has been subject to. However, the individual may still be unable to gauge the magnitude of severity of the impacts, and so may not be able to accurately judge whether or not the helmet is still capable of providing protection. Where helmets are used by a number of different individuals, then the ability of a user to determine whether or not a helmet is capable of providing the required degree of protection is severely reduced.
It is an object of the invention to provide a sensor suitable for use with a helmet to provide an indication as to whether or not a helmet has been subject to a large impact, and a helmet incorporating such a sensor.
According to one aspect of the invention there is provided an impact sensor comprising a support, a first inertial weight, and a first retainer holding the weight against movement relative to the support, the retainer being movable relative to the support to permit release the weight for movement relative to the support in the event that the support is subject to an acceleration/deceleration of magnitude greater than a predetermined level.
Preferably, the weight, once released from the retainer, is unable to return to a position in which the retainer holds the weight against movement relative the support.
In such an arrangement, if the sensor is mounted upon a helmet and the helmet is involved in a large impact, rapid acceleration or deceleration of the helmet will be transmitted to the support, but the inertia of the weight will urge the weight to continue to move, deflecting or moving the retainer to release the weight, depending upon the direction of the applied acceleration or deceleration. The release of the weight will result in the sensor rattling, if shaken, providing an audible warning that the sensor and helmet have been involved in an impact.
Preferably, the support further includes an additional retainer and additional inertial weight arranged to be sensitive to accelerations/decelerations in a direction different to, preferably perpendicular to, that of the first retainer and first weight.
The retainer preferably comprises a resiliently deflectable arm. The arm may be formed integrally with the support. The support may be located within, or form at least part of a casing of the sensor.
The invention further relates to a helmet incorporating a sensor of the type defined hereinbefore.
Preferably the helmet incorporates a plurality of such sensors, the sensors preferably being arranged to be sensitive to impacts in different directions. Preferably, sensors are provided to permit sensing of impacts in the front-rear direction, sideways direction and vertical direction of the helmet, in use.
The invention will further be described, by way of example, with reference to the accompanying drawings, in which:
Referring to the accompanying drawings there is illustrated a helmet 10 intended for use by an individual whilst skiing, horse riding, cycling, motorcycling or the like. The helmet 10 comprises a layer 12 of a compressible, shock absorbing material. A number of materials are suitable for use in the layer 12 as would be understood by a man skilled in the art and so further description thereof is not included herein. Likewise, although in the illustrated embodiment the layer 12 is a continuous layer, it will be understood that it could take the form of a plurality of individual, discrete components.
The layer 12 is of generally hollow hemispherical shape, and the interior thereof is conveniently provided with fittings (not shown) to allow the helmet 10 to be positioned over and around a portion of a users head, the fittings ensuring that the helmet 10 is firmly secured in position, in use.
Over the layer 12 is formed a skin 14. The skin 14 may take a range of forms. For example, it may comprise a simple fabric cover. Alternatively, it may comprise, for example, a plastics material molding secured over the layer 12 and providing a degree of protection thereto.
Helmets 10 of this general type are well known and are in widespread use. In use, in the event that the user in involved in an incident that would otherwise result in the user sustaining an impact to the head, the impact is sustained to the helmet 10 and the layer 12 compresses, absorbing at least part of the impact load, thus reducing the risk of injury, or reducing the extent of injury, to the user.
In accordance with the invention, secured to the helmet 10 is a plurality of sensors 16. The sensors 16 may simply be adhered or otherwise secured to the skin 14. Alternatively, as illustrated, they may be hidden from view, being located between the layer 12 and the skin 14. In the arrangement illustrated, four such sensors 16 are mounted upon the helmet 10, the sensors 16 being spaced apart around the periphery of the helmet 10. As described below, each sensor 16 is sensitive to impacts in two perpendicular directions, and the orientation of the sensors 16 is preferably such that, together, the sensors 16 are sensitive to impacts in any direction, ie together the sensors 16 form a tri-axial impact sensor. The arrows 18 in
Referring to
The support 26 includes a first resilient retainer in the form of an inwardly extending arm 32 formed integrally with the support 26. A similar arm 34 forms a second resilient retainer. Each arm 32, 34 includes, at its free end, an abutment 36 formed with a recess, the recess facing an adjacent, recessed part of the support 26. Inertial weights 38, 40 in the form of ball bearings are held between the abutments 36 and adjacent parts of the support 26, the weights 38, 40 being received, partially, within the corresponding recesses.
In use, if the sensor 16 is subject to a sudden acceleration or deceleration, the weights 38, 40 will experience forces urging them to move relative to the support 26. If the applied force has a component of the forces acting in direction 42 illustrated in
A user, before putting on the helmet, simply needs to shake the helmet to determine whether or not one or more of the sensors rattles. If a rattling sound is heard, this provides an indication that the helmet may have been subject to a shock sufficient to impair the shock absorbing capability thereof. The user can then either decide to use an alternative helmet, or more carefully inspect the helmet in order to determine whether or not it is still suitable for use. In either case, as the risk of continued use of a helmet which no longer affords the required degree of protection is provided, it will be appreciated that safety is enhanced.
Although in the arrangement illustrated each sensor 16 is sensitive to impacts in two perpendicular directions, it will be appreciated that this need not always be the case. For example, the sensor may only be sensitive in one direction, or in more than two directions. Further, the said directions need not be perpendicular to one another.
A number of other modifications and alterations may be made to the arrangement described hereinbefore without departing from the scope of the invention.
Claims
1. An impact sensor comprising a support, a first inertial weight, and a first retainer holding the weight against movement relative to the support, the retainer being movable relative to the support to permit release the weight for movement relative to the support in the event that the support is subject to an acceleration/deceleration of magnitude greater than a predetermined level.
2. A sensor according to claim 1, wherein the weight, once released from the retainer, is unable to return to a position in which the retainer holds the weight against movement relative the support.
3. A sensor according to claim 1, wherein the support further includes an additional retainer and additional inertial weight arranged to be sensitive to accelerations/decelerations in a direction different to that of the first retainer and first weight.
4. A sensor according to claim 3 wherein the additional retainer and additional inertial weight are arranged to be sensitive to accelerations/decelerations in a direction perpendicular to that of the first retainer and first weight.
5. A sensor according to claim 1, wherein the retainer comprises a resiliently deflectable arm.
6. A sensor according to claim 5, wherein the arm is formed integrally with the support.
7. A sensor according to claim 1, wherein the support is located within, or forms at least part of, a casing of the sensor.
8. A helmet incorporating a sensor, the sensor comprising a support, a first inertial weight, and a first retainer holding the weight against movement relative to the support, the retainer being movable relative to the support to permit release the weight for movement relative to the support in the event that the support is subject to an acceleration/deceleration of magnitude greater than a predetermined level..
9. A helmet according to claim 8, and incorporating a plurality of such sensors.
10. A helmet according to claim 9, wherein the sensors are arranged to be sensitive to impacts in different directions.
11. A helmet according to claim 9, wherein the sensors are arranged to permit sensing of impacts in the front-rear direction, sideways direction and vertical direction of the helmet, in use.
Type: Application
Filed: Jun 11, 2009
Publication Date: Dec 17, 2009
Inventor: Matthew Aspray (Cirencester)
Application Number: 12/482,591
International Classification: A42B 3/04 (20060101); G01P 15/02 (20060101);